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linux/drivers/infiniband/hw/irdma/pble.c
Thomas Weißschuh 9334003d13 RDMA: Don't use %pK through printk 
In the past %pK was preferable to %p as it would not leak raw pointer
values into the kernel log.
Since commit ad67b74d24 ("printk: hash addresses printed with %p")
the regular %p has been improved to avoid this issue.
Furthermore, restricted pointers ("%pK") were never meant to be used
through printk(). They can still unintentionally leak raw pointers or
acquire sleeping looks in atomic contexts.

Switch to the regular pointer formatting which is safer and
easier to reason about.

Signed-off-by: Thomas Weißschuh <thomas.weissschuh@linutronix.de>
Link: https://patch.msgid.link/20250407-restricted-pointers-infiniband-v1-1-22b20504b84d@linutronix.de
Signed-off-by: Leon Romanovsky <leon@kernel.org>
2025-04-09 14:30:10 -04:00

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// SPDX-License-Identifier: GPL-2.0 OR Linux-OpenIB
/* Copyright (c) 2015 - 2021 Intel Corporation */
#include "osdep.h"
#include "hmc.h"
#include "defs.h"
#include "type.h"
#include "protos.h"
#include "pble.h"
static int add_pble_prm(struct irdma_hmc_pble_rsrc *pble_rsrc);
/**
* irdma_destroy_pble_prm - destroy prm during module unload
* @pble_rsrc: pble resources
*/
void irdma_destroy_pble_prm(struct irdma_hmc_pble_rsrc *pble_rsrc)
{
struct irdma_chunk *chunk;
struct irdma_pble_prm *pinfo = &pble_rsrc->pinfo;
while (!list_empty(&pinfo->clist)) {
chunk = (struct irdma_chunk *) pinfo->clist.next;
list_del(&chunk->list);
if (chunk->type == PBLE_SD_PAGED)
irdma_pble_free_paged_mem(chunk);
bitmap_free(chunk->bitmapbuf);
kfree(chunk->chunkmem.va);
}
}
/**
* irdma_hmc_init_pble - Initialize pble resources during module load
* @dev: irdma_sc_dev struct
* @pble_rsrc: pble resources
*/
int irdma_hmc_init_pble(struct irdma_sc_dev *dev,
struct irdma_hmc_pble_rsrc *pble_rsrc)
{
struct irdma_hmc_info *hmc_info;
u32 fpm_idx = 0;
int status = 0;
hmc_info = dev->hmc_info;
pble_rsrc->dev = dev;
pble_rsrc->fpm_base_addr = hmc_info->hmc_obj[IRDMA_HMC_IW_PBLE].base;
/* Start pble' on 4k boundary */
if (pble_rsrc->fpm_base_addr & 0xfff)
fpm_idx = (4096 - (pble_rsrc->fpm_base_addr & 0xfff)) >> 3;
pble_rsrc->unallocated_pble =
hmc_info->hmc_obj[IRDMA_HMC_IW_PBLE].cnt - fpm_idx;
pble_rsrc->next_fpm_addr = pble_rsrc->fpm_base_addr + (fpm_idx << 3);
pble_rsrc->pinfo.pble_shift = PBLE_SHIFT;
mutex_init(&pble_rsrc->pble_mutex_lock);
spin_lock_init(&pble_rsrc->pinfo.prm_lock);
INIT_LIST_HEAD(&pble_rsrc->pinfo.clist);
if (add_pble_prm(pble_rsrc)) {
irdma_destroy_pble_prm(pble_rsrc);
status = -ENOMEM;
}
return status;
}
/**
* get_sd_pd_idx - Returns sd index, pd index and rel_pd_idx from fpm address
* @pble_rsrc: structure containing fpm address
* @idx: where to return indexes
*/
static void get_sd_pd_idx(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct sd_pd_idx *idx)
{
idx->sd_idx = (u32)pble_rsrc->next_fpm_addr / IRDMA_HMC_DIRECT_BP_SIZE;
idx->pd_idx = (u32)(pble_rsrc->next_fpm_addr / IRDMA_HMC_PAGED_BP_SIZE);
idx->rel_pd_idx = (idx->pd_idx % IRDMA_HMC_PD_CNT_IN_SD);
}
/**
* add_sd_direct - add sd direct for pble
* @pble_rsrc: pble resource ptr
* @info: page info for sd
*/
static int add_sd_direct(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_add_page_info *info)
{
struct irdma_sc_dev *dev = pble_rsrc->dev;
int ret_code = 0;
struct sd_pd_idx *idx = &info->idx;
struct irdma_chunk *chunk = info->chunk;
struct irdma_hmc_info *hmc_info = info->hmc_info;
struct irdma_hmc_sd_entry *sd_entry = info->sd_entry;
u32 offset = 0;
if (!sd_entry->valid) {
ret_code = irdma_add_sd_table_entry(dev->hw, hmc_info,
info->idx.sd_idx,
IRDMA_SD_TYPE_DIRECT,
IRDMA_HMC_DIRECT_BP_SIZE);
if (ret_code)
return ret_code;
chunk->type = PBLE_SD_CONTIGOUS;
}
offset = idx->rel_pd_idx << HMC_PAGED_BP_SHIFT;
chunk->size = info->pages << HMC_PAGED_BP_SHIFT;
chunk->vaddr = sd_entry->u.bp.addr.va + offset;
chunk->fpm_addr = pble_rsrc->next_fpm_addr;
ibdev_dbg(to_ibdev(dev),
"PBLE: chunk_size[%lld] = 0x%llx vaddr=0x%p fpm_addr = %llx\n",
chunk->size, chunk->size, chunk->vaddr, chunk->fpm_addr);
return 0;
}
/**
* fpm_to_idx - given fpm address, get pble index
* @pble_rsrc: pble resource management
* @addr: fpm address for index
*/
static u32 fpm_to_idx(struct irdma_hmc_pble_rsrc *pble_rsrc, u64 addr)
{
u64 idx;
idx = (addr - (pble_rsrc->fpm_base_addr)) >> 3;
return (u32)idx;
}
/**
* add_bp_pages - add backing pages for sd
* @pble_rsrc: pble resource management
* @info: page info for sd
*/
static int add_bp_pages(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_add_page_info *info)
{
struct irdma_sc_dev *dev = pble_rsrc->dev;
u8 *addr;
struct irdma_dma_mem mem;
struct irdma_hmc_pd_entry *pd_entry;
struct irdma_hmc_sd_entry *sd_entry = info->sd_entry;
struct irdma_hmc_info *hmc_info = info->hmc_info;
struct irdma_chunk *chunk = info->chunk;
int status = 0;
u32 rel_pd_idx = info->idx.rel_pd_idx;
u32 pd_idx = info->idx.pd_idx;
u32 i;
if (irdma_pble_get_paged_mem(chunk, info->pages))
return -ENOMEM;
status = irdma_add_sd_table_entry(dev->hw, hmc_info, info->idx.sd_idx,
IRDMA_SD_TYPE_PAGED,
IRDMA_HMC_DIRECT_BP_SIZE);
if (status)
goto error;
addr = chunk->vaddr;
for (i = 0; i < info->pages; i++) {
mem.pa = (u64)chunk->dmainfo.dmaaddrs[i];
mem.size = 4096;
mem.va = addr;
pd_entry = &sd_entry->u.pd_table.pd_entry[rel_pd_idx++];
if (!pd_entry->valid) {
status = irdma_add_pd_table_entry(dev, hmc_info,
pd_idx++, &mem);
if (status)
goto error;
addr += 4096;
}
}
chunk->fpm_addr = pble_rsrc->next_fpm_addr;
return 0;
error:
irdma_pble_free_paged_mem(chunk);
return status;
}
/**
* irdma_get_type - add a sd entry type for sd
* @dev: irdma_sc_dev struct
* @idx: index of sd
* @pages: pages in the sd
*/
static enum irdma_sd_entry_type irdma_get_type(struct irdma_sc_dev *dev,
struct sd_pd_idx *idx, u32 pages)
{
enum irdma_sd_entry_type sd_entry_type;
sd_entry_type = !idx->rel_pd_idx && pages == IRDMA_HMC_PD_CNT_IN_SD ?
IRDMA_SD_TYPE_DIRECT : IRDMA_SD_TYPE_PAGED;
return sd_entry_type;
}
/**
* add_pble_prm - add a sd entry for pble resoure
* @pble_rsrc: pble resource management
*/
static int add_pble_prm(struct irdma_hmc_pble_rsrc *pble_rsrc)
{
struct irdma_sc_dev *dev = pble_rsrc->dev;
struct irdma_hmc_sd_entry *sd_entry;
struct irdma_hmc_info *hmc_info;
struct irdma_chunk *chunk;
struct irdma_add_page_info info;
struct sd_pd_idx *idx = &info.idx;
int ret_code = 0;
enum irdma_sd_entry_type sd_entry_type;
u64 sd_reg_val = 0;
struct irdma_virt_mem chunkmem;
u32 pages;
if (pble_rsrc->unallocated_pble < PBLE_PER_PAGE)
return -ENOMEM;
if (pble_rsrc->next_fpm_addr & 0xfff)
return -EINVAL;
chunkmem.size = sizeof(*chunk);
chunkmem.va = kzalloc(chunkmem.size, GFP_KERNEL);
if (!chunkmem.va)
return -ENOMEM;
chunk = chunkmem.va;
chunk->chunkmem = chunkmem;
hmc_info = dev->hmc_info;
chunk->dev = dev;
chunk->fpm_addr = pble_rsrc->next_fpm_addr;
get_sd_pd_idx(pble_rsrc, idx);
sd_entry = &hmc_info->sd_table.sd_entry[idx->sd_idx];
pages = (idx->rel_pd_idx) ? (IRDMA_HMC_PD_CNT_IN_SD - idx->rel_pd_idx) :
IRDMA_HMC_PD_CNT_IN_SD;
pages = min(pages, pble_rsrc->unallocated_pble >> PBLE_512_SHIFT);
info.chunk = chunk;
info.hmc_info = hmc_info;
info.pages = pages;
info.sd_entry = sd_entry;
if (!sd_entry->valid)
sd_entry_type = irdma_get_type(dev, idx, pages);
else
sd_entry_type = sd_entry->entry_type;
ibdev_dbg(to_ibdev(dev),
"PBLE: pages = %d, unallocated_pble[%d] current_fpm_addr = %llx\n",
pages, pble_rsrc->unallocated_pble,
pble_rsrc->next_fpm_addr);
ibdev_dbg(to_ibdev(dev), "PBLE: sd_entry_type = %d\n", sd_entry_type);
if (sd_entry_type == IRDMA_SD_TYPE_DIRECT)
ret_code = add_sd_direct(pble_rsrc, &info);
if (ret_code)
sd_entry_type = IRDMA_SD_TYPE_PAGED;
else
pble_rsrc->stats_direct_sds++;
if (sd_entry_type == IRDMA_SD_TYPE_PAGED) {
ret_code = add_bp_pages(pble_rsrc, &info);
if (ret_code)
goto error;
else
pble_rsrc->stats_paged_sds++;
}
ret_code = irdma_prm_add_pble_mem(&pble_rsrc->pinfo, chunk);
if (ret_code)
goto error;
pble_rsrc->next_fpm_addr += chunk->size;
ibdev_dbg(to_ibdev(dev),
"PBLE: next_fpm_addr = %llx chunk_size[%llu] = 0x%llx\n",
pble_rsrc->next_fpm_addr, chunk->size, chunk->size);
pble_rsrc->unallocated_pble -= (u32)(chunk->size >> 3);
sd_reg_val = (sd_entry_type == IRDMA_SD_TYPE_PAGED) ?
sd_entry->u.pd_table.pd_page_addr.pa :
sd_entry->u.bp.addr.pa;
if (!sd_entry->valid) {
ret_code = irdma_hmc_sd_one(dev, hmc_info->hmc_fn_id, sd_reg_val,
idx->sd_idx, sd_entry->entry_type, true);
if (ret_code)
goto error;
}
list_add(&chunk->list, &pble_rsrc->pinfo.clist);
sd_entry->valid = true;
return 0;
error:
bitmap_free(chunk->bitmapbuf);
kfree(chunk->chunkmem.va);
return ret_code;
}
/**
* free_lvl2 - fee level 2 pble
* @pble_rsrc: pble resource management
* @palloc: level 2 pble allocation
*/
static void free_lvl2(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc)
{
u32 i;
struct irdma_pble_level2 *lvl2 = &palloc->level2;
struct irdma_pble_info *root = &lvl2->root;
struct irdma_pble_info *leaf = lvl2->leaf;
for (i = 0; i < lvl2->leaf_cnt; i++, leaf++) {
if (leaf->addr)
irdma_prm_return_pbles(&pble_rsrc->pinfo,
&leaf->chunkinfo);
else
break;
}
if (root->addr)
irdma_prm_return_pbles(&pble_rsrc->pinfo, &root->chunkinfo);
kfree(lvl2->leafmem.va);
lvl2->leaf = NULL;
}
/**
* get_lvl2_pble - get level 2 pble resource
* @pble_rsrc: pble resource management
* @palloc: level 2 pble allocation
*/
static int get_lvl2_pble(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc)
{
u32 lf4k, lflast, total, i;
u32 pblcnt = PBLE_PER_PAGE;
u64 *addr;
struct irdma_pble_level2 *lvl2 = &palloc->level2;
struct irdma_pble_info *root = &lvl2->root;
struct irdma_pble_info *leaf;
int ret_code;
u64 fpm_addr;
/* number of full 512 (4K) leafs) */
lf4k = palloc->total_cnt >> 9;
lflast = palloc->total_cnt % PBLE_PER_PAGE;
total = (lflast == 0) ? lf4k : lf4k + 1;
lvl2->leaf_cnt = total;
lvl2->leafmem.size = (sizeof(*leaf) * total);
lvl2->leafmem.va = kzalloc(lvl2->leafmem.size, GFP_KERNEL);
if (!lvl2->leafmem.va)
return -ENOMEM;
lvl2->leaf = lvl2->leafmem.va;
leaf = lvl2->leaf;
ret_code = irdma_prm_get_pbles(&pble_rsrc->pinfo, &root->chunkinfo,
total << 3, &root->addr, &fpm_addr);
if (ret_code) {
kfree(lvl2->leafmem.va);
lvl2->leaf = NULL;
return -ENOMEM;
}
root->idx = fpm_to_idx(pble_rsrc, fpm_addr);
root->cnt = total;
addr = root->addr;
for (i = 0; i < total; i++, leaf++) {
pblcnt = (lflast && ((i + 1) == total)) ?
lflast : PBLE_PER_PAGE;
ret_code = irdma_prm_get_pbles(&pble_rsrc->pinfo,
&leaf->chunkinfo, pblcnt << 3,
&leaf->addr, &fpm_addr);
if (ret_code)
goto error;
leaf->idx = fpm_to_idx(pble_rsrc, fpm_addr);
leaf->cnt = pblcnt;
*addr = (u64)leaf->idx;
addr++;
}
palloc->level = PBLE_LEVEL_2;
pble_rsrc->stats_lvl2++;
return 0;
error:
free_lvl2(pble_rsrc, palloc);
return -ENOMEM;
}
/**
* get_lvl1_pble - get level 1 pble resource
* @pble_rsrc: pble resource management
* @palloc: level 1 pble allocation
*/
static int get_lvl1_pble(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc)
{
int ret_code;
u64 fpm_addr;
struct irdma_pble_info *lvl1 = &palloc->level1;
ret_code = irdma_prm_get_pbles(&pble_rsrc->pinfo, &lvl1->chunkinfo,
palloc->total_cnt << 3, &lvl1->addr,
&fpm_addr);
if (ret_code)
return -ENOMEM;
palloc->level = PBLE_LEVEL_1;
lvl1->idx = fpm_to_idx(pble_rsrc, fpm_addr);
lvl1->cnt = palloc->total_cnt;
pble_rsrc->stats_lvl1++;
return 0;
}
/**
* get_lvl1_lvl2_pble - calls get_lvl1 and get_lvl2 pble routine
* @pble_rsrc: pble resources
* @palloc: contains all inforamtion regarding pble (idx + pble addr)
* @lvl: Bitmask for requested pble level
*/
static int get_lvl1_lvl2_pble(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc, u8 lvl)
{
int status = 0;
status = get_lvl1_pble(pble_rsrc, palloc);
if (!status || lvl == PBLE_LEVEL_1 || palloc->total_cnt <= PBLE_PER_PAGE)
return status;
status = get_lvl2_pble(pble_rsrc, palloc);
return status;
}
/**
* irdma_get_pble - allocate pbles from the prm
* @pble_rsrc: pble resources
* @palloc: contains all inforamtion regarding pble (idx + pble addr)
* @pble_cnt: #of pbles requested
* @lvl: requested pble level mask
*/
int irdma_get_pble(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc, u32 pble_cnt,
u8 lvl)
{
int status = 0;
int max_sds = 0;
int i;
palloc->total_cnt = pble_cnt;
palloc->level = PBLE_LEVEL_0;
mutex_lock(&pble_rsrc->pble_mutex_lock);
/*check first to see if we can get pble's without acquiring
* additional sd's
*/
status = get_lvl1_lvl2_pble(pble_rsrc, palloc, lvl);
if (!status)
goto exit;
max_sds = (palloc->total_cnt >> 18) + 1;
for (i = 0; i < max_sds; i++) {
status = add_pble_prm(pble_rsrc);
if (status)
break;
status = get_lvl1_lvl2_pble(pble_rsrc, palloc, lvl);
/* if level1_only, only go through it once */
if (!status || lvl)
break;
}
exit:
if (!status) {
pble_rsrc->allocdpbles += pble_cnt;
pble_rsrc->stats_alloc_ok++;
} else {
pble_rsrc->stats_alloc_fail++;
}
mutex_unlock(&pble_rsrc->pble_mutex_lock);
return status;
}
/**
* irdma_free_pble - put pbles back into prm
* @pble_rsrc: pble resources
* @palloc: contains all information regarding pble resource being freed
*/
void irdma_free_pble(struct irdma_hmc_pble_rsrc *pble_rsrc,
struct irdma_pble_alloc *palloc)
{
pble_rsrc->freedpbles += palloc->total_cnt;
if (palloc->level == PBLE_LEVEL_2)
free_lvl2(pble_rsrc, palloc);
else
irdma_prm_return_pbles(&pble_rsrc->pinfo,
&palloc->level1.chunkinfo);
pble_rsrc->stats_alloc_freed++;
}
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